Display Device and Drive Method of the Display Device

1. A display device, comprising: a plurality of data lines extending in a first direction; a plurality of gate lines extending in a second direction, the plurality of gate lines divided into groups that are adjacent in the first direction; a plurality of selector transistors, each of which including a first conductive electrode and a second conductive electrode, wherein the first conductive electrode for each of the plurality of selector transistors is connected to an end of a gate line of the plurality of gate lines; a plurality of selection signal supplying wirings, each of which is provided for a corresponding group and connected to a control electrode of a corresponding selector transistor of the plurality of the selector transistors for the corresponding group; a plurality of gate voltage supplying wirings that are connected to the second conductive electrode of one of the selector transistors for each of the groups; and a gate driver that sequentially supplies a first gate voltage to the plurality of gate voltage supplying wirings while supplying a control voltage to the plurality of selection signal supplying wirings in order to turn on or off the plurality of selector transistors, wherein the gate driver supplies a second gate voltage to at least one of the plurality of gate voltage supplying wirings for each of the groups before supplying the first gate voltage that is used to turn on a pixel transistor disposed at an intersection portion of a data line among the plurality of data lines and a gate line among the plurality of gate lines, wherein the second gate voltage is lower than the first gate voltage, wherein the first gate voltage is Vgh 1 and the second gate voltage is Vgh 2 , and the second gate voltage Vgh 2 is set to satisfy (Vgh 1 )/3≤Vgh 2 <Vgh 1 .

2. The display device according to claim 1 , wherein the gate driver supplies the second gate voltage to each of the gate voltage supplying wirings before supplying the first gate voltage.

3. The display device according to claim 1 , wherein the gate driver supplies the second gate voltage to a gate voltage supplying wiring among the plurality of gate voltage supply wirings connected to a gate line among the plurality of gate lines disposed near a boundary between the two adjacent groups among the plurality of groups before supplying the first gate voltage.

4. The display device according to claim 1 , wherein, for a first gate line and a second gate line among the plurality of gate lines that are adjacent to each other in a scanning direction, the gate driver supplies the second gate voltage to a gate voltage supplying wiring connected to the second gate line during a time interval in which the first gate voltage is supplied to a gate voltage supplying wiring connected to the first gate line.

5. The display device according to claim 1 , wherein a signal waveform of the first gate voltage supplied to each of the plurality of gate voltage supplying wirings includes a stepwise shape rising from a first half toward a second half.

6. The display device according to claim 1 , wherein a signal waveform of the first gate voltage supplied to each of the plurality of gate voltage supplying wirings includes a slope shape that rises gradually from a first half toward a second half.

7. The display device according to claim 1 , wherein the second gate voltage has a voltage level at which the pixel transistor is turned on.

8. A drive method of a display device including a plurality of data lines extending in a first direction, a plurality of gate lines extending in a second direction, the plurality of gate lines divided into groups that are adjacent in the first direction, a plurality of selector transistors, each of which including a first conductive electrode and a second conductive electrode, wherein the first conductive electrode for each of the plurality of selector transistors is connected to an end of a gate line of the plurality of gate lines, a plurality of selection signal supplying wirings, each of which is provided for a corresponding group and connected to a control electrode of a corresponding selector transistor of the plurality of the selector transistors for the corresponding group, a plurality of gate voltage supplying wirings that are connected to the second conductive electrode of one of the selector transistors for each of the groups, and a gate driver that supplies a gate voltage to the plurality of gate voltage supplying wirings while supplying a control voltage to the plurality of selection signal supplying wirings in order to turn on or off the plurality of selector transistors, the drive method comprising: sequentially supplying, via the gate driver, a first gate voltage to the plurality of gate voltage supplying wirings while supplying a control voltage to the plurality of selection signal supplying wirings in order to turn on or off the selector transistor; sequentially supplying, via the gate driver, a second gate voltage having a voltage level lower than the first gate voltage to at least one gate voltage supplying wiring among the plurality of gate voltage supplying wirings in each of the groups; and turning on, via the first gate voltage, a pixel transistor that is disposed in an intersection portion of a data line among the plurality of data lines and a gate line among the plurality of gate lines, wherein the second gate voltage is supplied to the at least one gate voltage supplying wiring before the first gate voltage turns on the pixel transistor, wherein the first gate voltage is Vgh 1 and the second gate voltage is Vgh 2 , and the second gate voltage Vgh 2 is set to satisfy (Vgh 1 )/3≤Vgh 2 <Vgh 1 .